System 9100 Technical Manual 636.4
Configuration Guides Section
Configuration Guide
Issue Date 0896
XT-9100 Configuration Guide
XT-9100 Extension Module/XP-910x Expansion Modules
Page
3
• Introduction
3
4
4
• Hardware Configuration
• Model Codes
Software Configuration
7
• XT-9100 Type Settings
• XT-9100 Configuration
• Analog Input
7
9
10
15
16
19
21
• Digital Input Configuration
• Analog Output Configuration
• Digital Output Configuration
• Download/Upload
Appendix 1: SX Tool Item Description and Tables
23
• General
23
23
23
24
24
25
25
• Item Address
• Item Type
• Item Tag
• Read/Write Data (R/W)
• Floating Point Numbers
• Item List
©
1996 Johnson Controls, Inc.
Code No. LIT-6364050
1
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XT-9100 Extension Module/
XP-910x Expansion Modules
The XT-9100 Extension Module and its expansion modules have been
designed to provide additional input and output capacity within Metasys
Networks and specifically for the DX-9100 Extended Digital Controller.
The XT-9100 module provides the communication interface and the
XP modules provide the analog and digital inputs and outputs.
Introduction
A Supervisory System communicates with an XT-9100 via the N2 Bus or
Bus 91*. Each XT-9100, depending on its expansion module combination,
can have up to 16 inputs/outputs, eight of which may be analog.
The DX-9100 communicates with the XT-9100 via the XT-Bus, and when
the DX-9100 is connected to an N2 Bus (or Bus 91), data from the
XT-9100 is available to a Supervisory System. Up to eight XT-9100
modules can be connected to the XT-Bus. Each XT-9100 provides,
depending on the type of the connected XP expansion modules, either
eight analog points or eight digital points, extending the input/output of a
DX-9100 by up to 64 remote input/outputs. Modules with 16
input/outputs may also be connected, provided that the total number of
remote input/output points on the DX-9100 does not exceed 64.
Configuration of the XT-9100 is achieved by using a personal computer
with GX-9100 Graphic Configuration Software (GX Tool) supplied by
Johnson Controls. When the serial interface of the XT-9100 is connected
directly to the N2 Bus (Bus 91), the GX-9100 will download and upload
configurations over the N2 Bus (Bus 91). When the serial interface of the
XT-9100 is connected to the XT Bus, the GX-9100 will download and
upload configurations via the N2 Bus (Bus 91) connected to the DX-9100
to which the XT-Bus is connected. The DX-9100 retransmits
configuration data to the XT-9100 on its XT-Bus.
RS485
C A
EXP
EXP
EXP
AI1 AI2 AI3 AI4
+15V
A
B
B
C
A DD R ES S
max
AO7
min
Power
max
AO8
min
RD
TD
XP9102
XT9100
FUSE
AI5 AI6
V
A O 7
A O 8
C
24V
COM 24V
xt910x
Figure 1: XT-9100 Extension Module and XP-910x Expansion Modules
* The term “Bus 91” is not used in North America.
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For full details of the hardware configuration, refer to the XT-9100
Technical Bulletin (LIT-6364040).
Hardware
Configuration
An XT-9100 combined with expansion modules provides the following
configurations, either:
•
•
eight analog inputs/outputs, or
eight digital inputs/outputs, with digital counters associated with the
digital inputs, or
•
•
eight analog inputs/outputs and eight digital inputs/outputs, or
sixteen digital inputs/outputs, with digital counters associated with the
digital inputs within the first eight inputs/output points
The extension module address is set with the address switches on the
XT-9100. When connected to a DX-9100 controller, this address must
also be set in the DX-9100 software configuration. The address must be
unique not only on the XT-Bus, but also on the N2 Bus (Bus 91) to which
the DX-9100 is connected.
The XT-9100 must be supplied with a 24 VAC power source. All models
are suitable for 50 Hz or 60 Hz through software configuration.
For the analog inputs and outputs, the input and output type are set by
jumpers on the analog expansion module board. These settings must
comply with the software configuration settings.
Note: When an extension module is configured with 16 inputs/outputs,
the DX-9100 considers the single physical module as two logical
modules, each with eight inputs/outputs. A DX-9100 can
communicate with up to eight logical modules, with a maximum of
64 inputs/outputs.
Model Codes
Table 1: XT/XP/TR Model Codes
XT-9100-8004
Extension Module
24 VAC supply
6 analog inputs
2 analog outputs
XP-9102-8004
Expansion Module
XP-9103-8004
XP-9104-8004
Expansion Module
Expansion Module
8 digital outputs (triacs)
4 digital inputs
4 digital outputs (triacs)
XP-9105-8004
XP-9106-8004
TR-9100-8001*
TR-9100-8002*
Expansion Module
8 digital inputs
Expansion Module
4 digital outputs (relay)
Primary: 240 VAC
Primary: 220 VAC
Transformer, 24V/12 VA
Transformer, 24V/12 VA
* TR-9100 is not available in North America.
4
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Bus Connector (provided)
RS485
EXP
EXP
EXP
EXP
EXP
HOT GND NEUT
DO1
DO2
DO3 DO4
AI1 AI2 AI3 AI4
+15V
A
B
C
A
B
C
ADDRESS
max
AO7
min
DO1
DO2
DO3
DO4
DO5
DO6
DO7
DO8
Power
max
AO8
min
RD
TD
XP9102
TR9100
XT9100
XP9103
F USE
FUSE
AI5 AI6
V
AO 7
A O 8
C
24 V
DO5 DO 6 DO 7 DO8
COM 24V
COM 24V
TR
XT
XP1
XP2
emtxt-4
Figure 2: Typical XT-9100 Configuration
Table 2: XT Configurations
TR
Transformer
TR-9100
XT-9100
XP-9102
(optional)
XT
Processor
XP1
Analog
or
(See Note 1.)
Digital
XP-9103
XP-9104
XP-9105
1 or 2 x XP-9106
(See Notes 2 and 4.)
XP2
Digital
XP-9103
(optional)
(optional)
(optional)
XP-9104
XP-9105
1 or 2 x XP-9106
(optional) (See Notes 2, 3, and 4.)
Notes:
1. The analog XP-9102 must be placed in position XP1.
2. Two XP-9106 modules are considered as one XP module when installed next to each
other in Position XP1 or XP2. When a single XP-9106 is installed in Position XP1 and
another type of XP module is installed in Position XP2, the total number of I/Os is
restricted to 12.
3. The XP-9106 can only be placed in Position XP2 when Position XP1 is filled by an
analog XP or two XP-9106 modules.
4. The first XP-9106 in position XP1 or XP2 controls points DO1-DO4 and the second
XP-9106 in either position controls points DO5-DO8.
5. Digital modules with counters must be in position XP1.
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Software Configuration
Software configuration involves the setting of all the Items of the
extension module to values which correspond to the intended application.
Typically, use the GX Tool to configure a system, and the SX Tool to
troubleshoot. To use these tools, refer to the GX-9100 Software
Configuration Tool for Windows User’s Guide (LIT-6364060) and the
SX-9100 Service Module User’s Guide (LIT-6364070). Proceed in the
following order:
1. Define XT-9100 type settings.
2. Define XT-9100 configuration.
3. Define analog input characteristics.
4. Define digital input characteristics.
5. Define analog output characteristics.
6. Define digital output characteristics.
XT-9100 Type
Settings
Power Line
Frequency
(50 or 60 Hz)
Via the GX Tool
Select DX-9100 and then Global. Enter the frequency as 50 or 60. The
XT frequency and the DX frequency are both defined here.
Via the SX Tool
Set Bit X1 of Item XTS (RI.69).
X1 = 0 50 Hz power line
X1 = 1 60 Hz power line
Output
Via the GX Tool
Hold/Reset on
Comm. Failure
Flag
First configure an XT Module. Select XTn, then Analog or Digital. Then
select the just configured XTn, XTn, and Data.
To set this flag, at the “Status on comm. fail” (communication failure)
field, enter 0 or 1.
When this bit is set to “0,” the digital outputs are switched off upon a
serial interface failure, and the corresponding Item values are reset to zero.
When set to “1,” the digital outputs hold their current state upon a serial
interface failure.
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Via the SX Tool
The “Output Hold/Reset on Communication Failure” flag is set at Bit X2
of Item XTS (RI.69).
X2 = 0 Output reset upon communication failure
X2 = 1 Output hold upon communication failure
Maximum Time
Between
Communications
When communication fails for the period set in this Item, the XT-9100
goes into “communication failure” state, indicated by a blinking power
LED on the front of the module. The default value is 60 seconds.
Via the GX Tool
First configure an XT Module. Select XTn, then Analog or Digital. Then
select the just configured XTn, XTn, and Data. At the “Comm. timeout
(sec)” field, enter the value in seconds.
Via the SX Tool
The “Maximum Time Between Communications” (in seconds) is entered
at Item MTBC (RI.86).
Operational Mode
(SX Only)
The operational mode of the XT-9100 can be seen at Item OPMO (RI.01)
with following status bits:
X8 = 1 PWR Power Failure. This bit is set when a XT is
powered up or when there is a serial interface
communication failure.
The setting in Item XTS (RI.69) Bit X2 (“Output Hold/Reset on
Communication Failure” flag) is repeated in Item OPMO (RI.01) Bit X7
so that it can be read by the DX-9100 or any other monitoring system.
XT Address
Via the GX Tool
In order to download the XT-9100 devices it is necessary to enter the
XT addresses. These addresses will also be loaded into the DX-9100.
When performing a download through a DX-9100 Controller, the
controller only downloads the addresses of its own XT set. The
XT address is not stored in the XT-9100 but must be set on the address
switches on the module.
First configure an XT Module. Select XTn, then Analog or Digital. Then
select the just configured XTn, XTn, and Data. At the “Hardware
Address” field, enter the address (1-255) of the XT-9100 module.
Via SX Tool
Refer to the Extension Module Configuration section in the DX-9100
Configuration Guide (LIT-6364030).
8
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XT-9100
Configuration
Settings
Via the GX Tool
The I/O type and map details are automatically generated by the GX-9100
Graphic Configuration Software when all I/O data for extension modules
has been entered. It is then downloaded into the XT-9100 directly or via
the DX-9100 and XT-Bus. (Refer to the Download/Upload section,
further in this document.)
When in the GX Tool, select the XT module, then define it as Analog or
Digital (if Digital, define it as 8 DI, 4DI/4DO, or 8DO). This defines
Module XP1. If an XT has 16 points (XP2 is connected), select the
XT box immediately to the right of the configured module, select
EXP.DIG and define it as 8DI, 4DI/4DO, or 8DO. “EXP” will appear in
the XT box. Then select XT (or EXP) again and define each point in the
selected configuration in the same way as when defining the points in the
DX-9100. The following pages describe how to define each of the points
individually.
Via the SX Tool
Each extension module configuration is defined by the I/O types and
map which are configured in Extension Module Items IOMAP (RI.77),
IOTYP (RI.78), and IOMOD (RI.79).
1. The I/O map (IOMAP) defines which inputs/outputs (in pairs) on the
extension module are used. Each extension module can be defined
with eight used points, which normally reside in the XP1 (first)
Expansion Module (points I/O1-I/O8), defined in bits X1-X4.
When an extension module has an XP2 (second) Expansion Module
with a further eight points, these points must be defined in bits X5-X8.
2. The I/O type (IOTYP) defines which inputs/outputs (in pairs) are
analog and which are digital. As the points on XP2 (if used) must be
digital, only bits X1-X4 can be configured.
3. The I/O mode (IOMOD) defines points as “input” or “output”
(in pairs). Only those points declared as “used” in Item IOMAP will
be monitored or controlled.
The combination of data in the Items IOMAP, IOTYP, and IOMOD
completely defines the configuration of an extension module. When
connected to a DX-9100 Controller, an identical set of data must be
entered into the Item data base in the DX-9100 Controller, so that,
when the DX-9100 and XT-9100 are connected and started up, the
DX-9100 will compare data bases and only send commands to the
extension module if the data is identical, thus avoiding incorrect
control actions.
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Note: The data base in the XT-9100 has been designed to accept most
configuration of inputs and outputs. All inputs and outputs
which are physically connected through expansion modules
must be configured, and only those points. If there is a
difference between the physical configuration and the software
configuration, the XT-9100 will signal an error condition to the
DX-9100 (XTnERR).
Analog Input
Configuration
Each analog input is defined and configured by the following parameters:
•
•
•
•
•
•
•
Tag name (optional, GX-only)
Measurement units (for RTD inputs)
Enable square root
Alarm on unfiltered value
Input signal range
Alarm limits
Filter time constant
The GX Tool determines the input signal range with a 2-stage process:
you must first decide if the input is active or passive; the remaining
options depend on this choice. With the SX Tool, this information is
entered into a number of Items.
Via the GX Tool
Select XTn, AIn, then either Active or Passive.
Note: All AI points must be configured even if not connected to a sensor
to enable the generation of a complete IO Map and to ensure
correct operation with the DX-9100 Controller.
AI Input Type:
Measurement
Units
Via the GX Tool
The selection of Celsius or Fahrenheit, is set in the Global data of the
DX-9100 (select DX-9100, then Global. At the “Temperature Units”
field, enter “C” for Celsius or “F” for Fahrenheit).
To determine the measurement units of active inputs, select XTn, AIn,
Data, and then enter in the “Measurement Units” field:
0 = None
1 = Temperature (“C” or “F” as entered in Global)
2 = Percent (%)
Note: The units of an active input are not read by the DX-9100
Controller, but are available to any other Supervisory System
which may be connected.
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Via the SX Tool
The input type for the eight possible inputs (n = 1 to 8) can be configured
in Item AITn (RI.88, RI.96, RI.104, RI.112, RI.120, RI.128, RI.136, and
RI.144).
The unit of each analog input can be selected with following bits: (For
RTD inputs, Celsius or Fahrenheit must be selected.)
X4 X3 X2 X1 = 0000
X4 X3 X2 X1 = 0001
X4 X3 X2 X1 = 0010
X4 X3 X2 X1 = 0011
No Units
Celsius
Fahrenheit
Percent
Changing individual temperature units for each AI can only be done in the
SX Tool.
AI Input Type:
Enable Square
Root
This function allows the linearization of the differential pressure signal
from a 0-10 VDC or 0/4 - 20 mA active sensor; the function is effective
over the selected range:
AI = sqrt(PR%/100) * (HR - LR) + LR
Where %PR = the Analog Value in % of the physical input range;
HR = High Range Value; and LR = Low Range Value.
Via the GX Tool (Option Only Available with Active Sensor)
Select XTn, AIn, and Data. At the “Square Root” field, enter “0” for No,
or “1” for Yes (to enable the square root calculation).
Via the SX Tool (Option Only Available with Active Sensor)
Select Item AITn.
X5 = 1 Enable Square Root of Input
X5 = 0 Disable Square Root of Input
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AI Input Type:
Alarm on
Unfiltered Value
An alarm from the High Limit (HIAn) and Low Limit Alarm (LOAn) will
be generated from the unfiltered or filtered input. (See Filter Time
Constant.)
Via the GX Tool
Select XTn, AIn, and Data. At the “Alarm Unfiltered” field, enter “0” for
No (Alarm on Filtered Value), or “1” for Yes (Alarm on Unfiltered
Value).
Via the SX Tool
Select Item AITn.
X6 = 0 Alarm on Filtered Value
X6 = 1 Alarm on Unfiltered Value
AI Input Type:
Input Signal
Range
Via the GX Tool
(You must first have selected whether the input is active or passive. See
the beginning of Analog Input--Configuration.)
For active inputs, select XTn, AIn, then Data. At the “Type of Active
Input” field, enter:
0 = 0-10 VDC
1 = 4-20 mA
2 = 0-20 mA
Each analog input module channel performs the conversion of the input
signal to a numeric value using the high range and low range.
Select XTn, AIn, then Data.
High Range = enter the equivalent number for reading at high input
(10V, 20 mA)
Low Range = Enter the reading at low input (0V, 0 mA, 4 mA)
For passive inputs, select XTn, AIn, then Data. At the “Type of Passive
Input” field, enter:
1 = Ni1000 (JCI Type)
2 = Ni1000 Extended Range
3 = A99 (JCI Type)
4 = Pt 1000 (DIN)
Note: Selections 5 and 6 on the screen are not available in the
XT-9100.
For RTD inputs, the range of the displayed value is fixed according to the
type of sensor.
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Via the SX Tool
Input Type:
X7 = 0 0-10 volts
X7 = 1 0-20 mA
X8 = 1 20% suppression 2-10V or 4-20 mA)
Linearization and Sensor Type:
X11 X10 X9 = 000
X11 X10 X9 = 001
Linear (Active Sensor)
Ni 1000 RTD Passive Sensor (JCI Type)
(-45 to +121°C/-50 to +250°F)
Ni 1000 RTD High Temperature Sensor
(+21 to +288°C/70 to +550°F)
RTD Sensor A99
X11 X10 X9 = 010
X11 X10 X9 = 011
X11 X10 X9 = 100
(-50 to +100°C/-58 to +212°F)
RTD Sensor Platinum 1000
(+50 to +200°C/-58 to +320°F)
For active inputs, each analog input module channel performs the
conversion of the input signal to a numeric value using the high range at
Item HRn (RI.89, RI.97, RI.105, RI.113, RI.121, RI.129, RI.137, and
RI.145) and low range at Item LRn (RI.90, RI.98, RI.106, RI.114,
RI.122, RI.130, RI.138, and RI.146).
For RTD inputs, the range of the displayed value is fixed according to the
type of sensor.
AI Input Type:
Alarm Limits
The high limit and the low limit define at which levels the analog input
reading will generate an alarm, either for remote monitoring or for internal
use within the control sequences in the DX-9100.
Note: The limits cannot be deleted. If you do not want alarms, enter
limits beyond the range.
Via the GX Tool
Select XTn, AIn, then Data. At the respective field, enter the limit:
High Limit =
Low Limit =
Limit Differential =
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Via the SX Tool
The high limit is at Item HIAn (RI.91, RI.99, RI.107, RI.115, RI.123,
RI.131, RI.139, and RI.147), the low limit is at Item LOAn (RI.92,
RI.100, RI.108, RI.116, RI.124, RI.132, RI.140, and RI.148). These Items
may also be set by a Supervisory System and will always be set by
a DX-9100 Controller.
The differential on alarm limits is adjustable with Item ADFn (RI.93,
RI.101, RI.109, RI.117, RI.125, RI.133, RI.141, and RI.149).
Filter Time
Constant
The Filter Time Constant Ts (seconds) is used to filter out any cyclic
instability in the analog input signals. The calculations are:
FV = FV + [1/(1 + T )] * [AI - FV
]
t
t-1
FV
s
t
t-1
Where:
= Filtered Analog Value at current time
= Filtered Analog Value at previous poll
= Actual Analog Value at current time
t
FV
t-1
AI
t
A value of “0” disables the filter.
Via the GX Tool
Select XTn, AIn, and Data. At the “Filter Constant (sec)” field, enter a
number within the recommended range 0 to 10.
Via the SX Tool
The Filter Time Constant is entered at Item FTCn (RI.94, RI.102, RI.110,
RI.118, RI.126, RI.134, RI.142, and RI.150).
AI Notes
1. When the XT-9100 is connected to a DX-9100 Controller, you can
view the AI value and alarm limits from the DX front panel. See
Display Panel and Keypads in the DX-9100 Extended Digital
Controller Technical Bulletin (LIT-6364020).
2. Analog input values can be read via the SX Tool at Item AIn
(RI.12 to RI.19).
3. Analog input alarm status can be seen via the SX Tool at Item AIS
(RI.11), Bit X1, X3....X15 for high alarm condition and X2, X4....X16
for low alarm condition.
4. Configure all AIs as Active or Passive, whether they are used or
not. A configured AI is shown by a thick bar to the left and right
of its selection box.
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An XT-9100 can accept up to 16 digital inputs, which will be considered
active when driven to a common digital ground. The first eight digital
inputs are connected to XP1 and the next eight digital inputs to XP2.
Digital Input
Configuration
Each digital input is defined and configured by the following parameters:
•
•
•
Tag name (optional, GX-9100 only)
Input type
Counter prescaler
Inputs may be defined as maintained or pulse type. With maintained type
contacts the extension module status follows the status of the contact.
With pulse type contacts the extension module sets and resets the status at
each pulse of the input contact.
DI: Input Type
Via the GX Tool
Select XTn (or EXP), DIn, then Data. At the “Digital Input Type” field
enter 0 for maintained contact or 1 for pulse contact.
Via the SX Tool
The input type for the 2 x 8 possible inputs can be configured in Item
DIT1 for XP1 (RI.64) and in Item DIT2 (RI.65) for XP2, bits X1-X8 for
D11-DI8, as follows:
0 = Maintained Contact
1 = Pulse Contact
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DI: Counter
Prescaler
The digital input transitions of XP1 are counted as follows:
Digital
Input
DIn
Prescale
PCn
Count
Transition
Pulse
Counter
CNTRn
(RI.09)
(RI.48-55)
(RI.32-39)
emcmxt-3
Figure 3: Counter Prescaler
A count transition occurs when the number of positive transitions of the
digital input (DIn) equals the value of the prescaler (PCn). The Pulse
Counter (CNTn) counts the count transitions (n = 1-8).
Note: Counters are only available in the XP1 location.
Via the GX Tool
Select XTn, DIn, then Data. At the “Prescaler (counts)” field, enter from 1
to 255. When the XT-9100 is connected to a DX-9100 Controller the total
counts can be read on the DX-9100 front panel.
Via the SX Tool
Enter the prescaler at Item PCn (RI. 48-55) within the range 1-255.
DI Notes
1. When the XT-9100 is connected to a DX-9100 Controller, you can
view the DI status and counter values from the DX-9100 front panel.
See the Display Panel and Keypads section in the DX-9100 Extended
Digital Controller Technical Bulletin (LIT-6364020).
2. The status of the digital inputs can be seen at Item DIS1 (RI.09), bits
X1-X8, and Item DIS2 (RI.10), bits X1-X8.
Each analog output is defined and configured by the following parameters:
Analog Output
Configuration
•
•
Tag name (GX-9100 only)
Output type
When the XT is connected to a DX-9100 Controller, the following
parameters are defined in the DX-9100 for the analog output:
•
•
Source
Range
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AO: Output Type
Via the GX Tool
Select XTn, ANALOG, XTn, AOn, and Data, then enter the output code:
0 = disabled
1 = 0 to 10 VDC
2 = 0 to 20 mA
3 = 4 to 20 mA
Via the SX Tool
The output type can be configured in Item AOT (RI.87) in bit pairs
X2 X1, X4 X3, ...X16 X15 for Outputs 1-8). To define the output signal
set the bits (for Output 7, for example) as follows:
X14 X13 = 00 Output Disabled
X14 X13 = 01 Output 0-10V
X14 X13 = 10 Output 0-20 mA
X14 X13 = 11 Output 4-20 mA
AO: Range
(with DX-9100
only)
The AO range of the analog output is defined in the DX-9100 Controller.
The High Range defines the level of control source signal that corresponds
to an output of 100%.
The Low Range defines the level of control source signal that corresponds
to an output of 0%.
When the source point is equal to the high range, then the output will be at
the maximum signal (10V/20 mA). When the source point is equal to low
range, then the output will be at the minimum signal (0V, 0/4 mA).
Via the GX Tool
Select XTn, AOn, and Data, then enter the desired values in the “High
Range” and “Low Range” fields.
Via the SX Tool
Refer to the Extension Module Configuration section of the DX-9100
Configuration Guide (LIT-6364030).
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AO: Source
(with DX-9100
Only)
The source of the analog output signal is defined in the DX-9100
Controller.
Via the GX Tool
Select XTn, AOn, Data, and the “Source Point” field. Enter * and select
the required source variable.
Via the SX Tool
Refer to the Extension Module Configuration section of the DX-9100
Configuration Guide (LIT-6364030).
AO Notes
1. When the XT-9100 is connected to a DX-9100 Controller, you can
view and override the AO value from the DX-9100 front panel. See
Display Panel and Keypads in the DX-9100 Extended Digital
Controller Technical Bulletin (LIT-6364020).
2. The analog output values can be read in percent at Item AOn
(RI.20-27) with the SX Tool.
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Each digital output is defined and configured by the following parameters:
Digital Output
Configuration
•
•
•
Tag name (GX-9100 only)
Output type
Pulse time
When the XT is connected to a DX-9100 Controller, the following
parameter is defined in the DX-9100 for the digital output:
•
Source
DO: Type of
Output
Via the GX Tool
Select XTn (or EXP) and DOn, then select either of the On/Off or
Pulse fields. For the Pulse type, the output switches for a configurable
pulse time for each state transition of the command output.
Via the SX Tool
The output type for outputs DO1-DO8 can be selected in Item DOT1
(RI.66) for XP1 and Item DOT2 (RI.67) for XP2 as follows:
X1 = 0 On/Off Type (Maintained)
X1 = 1 Pulse Type; the output switches for a configurable pulse time
for each state transition of the command output
DO: Pulse Time
This parameter is set once for all pulse type outputs in the XT-9100.
Via the GX Tool
Select XTn, XTn, and Data, then enter a value in the “Digital Output Pulse
Time” field. The valid range is 1 to 250 (5 msec to 1.25 seconds pulse
time).
Via the SX Tool
The digital output pulse time can be defined in Item DOPT (RI.68) in units
of 5 msec. The default value is 200, which represents a pulse time of
1 second.
Note: All connected DO points must be configured to ensure correct
operation with the DX-9100 Controller. When a single XP-9106
(4DO) relay module is connected, select 8 DO on the GX Tool and
define outputs DO1-DO4 only.
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DO Source
(with DX-9100
Only)
The source of the digital output signal is defined in the DX-9100
Controller.
Via the GX Tool
Select XTn or (EXP), DOn, Data, and then the “Source Point” field. Enter
* and select the required source variable.
Via the SX Tool
Refer to the Extension Module Configuration section in the DX-9100
Configuration Guide (LIT-6364030).
DO Notes
1. When the XT-9100 is connected to a DX-9100 Controller, you can
view and override the DO value from the DX-9100 front panel. See
Display Panel and Keypads in the DX-9100 Extended Digital
Controller Technical Bulletin (LIT-6364020).
2. The digital output status can be seen at Item DOS1 (DI.07) for XP1
and Item DOS2 (DI.08) for XP2, bits X1-X8 for outputs DO 1-8 with
the SX Tool.
3. A configured DO is shown by a thick bar to the left and right of
its selection box.
Configure all DOs as ON/OFF or PULSE, whether they are used
or not. The only exception is for the 4-output relay module
(XP-9106). When only one XP-9106 module is installed, select
8DO, but only configure DO1-DO4. When two XP-9106 modules
are installed, configure both as one 8DO module, and configure
DO1-DO8.
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Download/
Upload
Via the GX Tool
Download via DX-9100 Controller and N2 Bus
Connect an RS-232-C/RS-485 converter (type MM-CVT101-x in North
America and type IU-9100-810x in Europe) to one of the serial
communication ports (COM1 or COM2) of the personal computer on
which the GX Tool is running. Connect the N2 Bus of the DX-9100 to the
converter unit connected to the PC.
Set the address switches and jumpers on the DX-9100 and XT/XP devices
as required, and connect the XT/XP devices to the XT Bus of the
DX-9100. (See the DX-9100 Extended Digital Controller Technical
Bulletin (LIT-6364020) and XT-9100 Technical Bulletin (LIT-6364040)
for details.)
If the DX-9100 and XT/XP devices are installed and wired, verify all field
wiring and sensor voltage/current signals. It is recommended that
controlled devices be isolated during download and initial startup.
Note: Do not download an untested configuration into an installed
device. Test the configuration on a simulator panel before
downloading.
Apply 24 VAC power to the DX-9100 and XT/XP devices.
On the GX Tool, select DX-9100, DOWNLD, and DX. Enter the
DX-9100 address (0-255) in the “Controller Address” field and the PC
serial communication port (1 or 2) in the “PC Port” field. Press <Enter>.
Checks are made before the data is downloaded to the controller, and a
message is displayed on the screen if a value is outside the normal range
for that parameter. The user may abort the download process and change
the value in the configuration or press <Enter> to ignore the message and
download the entered value.
When the download is complete, select DX-9100, DOWNLD, and XT.
Verify that the correct “PC Port” is selected and press <Enter>.
For subsequent downloads, where the XT addresses have not been
changed, the loading can be done in one process by selecting DX-9100,
DOWNLD, and DX&XT.
Download via DX-9100 Controller (RS-232-C Port)
Connect the serial communication port of the PC directly to the
RS-232-C port of the DX-9100 Controller. See DX-9100 Extended Digital
Controller Technical Bulletin (LIT-6364020) for details. Proceed as for
Download via DX-9100 Controller and N2 Bus previously in the
Download/Upload section.
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Upload via a DX-9100 Controller
Only complete DX-9100/XT-9100 configurations should be uploaded
from the DX-9100. Select DX-9100 and NEW to clear the PC screen.
Select DX-9100, UPLOAD, and DX&XT. Enter the DX-9100 Controller
address (0-255) and PC port (1 or 2). Press <Enter>.
Download via the N2 Bus
Set the address switches and jumpers on the XT/XP devices as required.
Connect the XT/XP devices to the N2 Bus and the N2 Bus to the converter
on the PC. (See the XT-9100 Technical Bulletin (LIT-6364040) for
connection details.)
If the XT/XP devices are installed and wired, verify all field wiring and
sensor voltage/current signals. It is recommended that controlled devices
be isolated during download and initial startup. Apply 24 VAC power to
the XT/XP devices.
Up to eight XT-9100s may be downloaded at one time from the GX Tool
over the N2 Bus.
If the XT/XP devices are not used with a DX-9100, it is recommended that
one configuration file is created for each XT-9100 in Position XT1.
Set the address switches and jumpers on the XT/XP devices as required.
Connect the XT/XP devices to the N2 Bus and the N2 Bus to the converter
on the PC. (See the XT-9100 Technical Bulletin (LIT-6364040) for details.)
If the XT/XP devices are installed and wired, verify all field wiring and
sensor voltage/current signals. It is recommended that controlled devices
be isolated during download and initial startup. Apply 24 VAC power to
the XT/XP devices.
Up to eight XT-9100s may be downloaded at one time from the GX Tool
over the N2 Bus.
If the XT/XP devices are not used with a DX-9100, it is recommended that
one configuration file is created for each XT-9100 in Position XT1.
Select DX-9100, DOWNLD, and XT. Enter the PC serial communication
port (1 or 2) in the “PC Port” field and press <Enter>.
Upload via the N2 Bus
Only one XT-9100 may be uploaded at one time and the configuration will
be stored under XT1. Select DX-9100, UPLOAD, and XT. Enter the
XT-9100 address (1-255) in the “Controller Address” field and the PC
serial communication point (1, 2) in the “PC Port” field. Press <Enter>.
Via the SX Tool
XT-9100 configuration data can only be changed item by item with the
SX Tool. It is not possible to download or upload a complete
configuration.
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Appendix 1: SX Tool Item
Description and Tables
The following information is important when commissioning with the
SX Service Module.
Each constant, variable, or value in an XT-9100 Extension Module can be
addressed via an Item code. All Items are contained in the Item List.
General
Note: It is important to note that EEPROM Items can only be written
approximately 10,000 times, so that write commands from cyclical
processes in Supervisory Systems must be avoided.
A configuration comprises a set of parameters which are stored in a series
of memory locations in the XT-9100. These parameters are called Items.
Each Item is assigned an Item Address.
Item Address
Active parameters such as analog values are stored in RAM.
Configuration parameters are stored in EEPROM. Data stored in
EEPROM is retained when the power is switched off.
The Item List at the end of this manual gives a brief description of each
Item available within the module.
The format of any XT-9100 Item is described by the following types:
Item Type
Number:
1 Byte:
Floating point number (2 bytes)
Unsigned 8-bit hexadecimal number used to transfer logic
states or integer numbers 0-255
2 Bytes:
4 Bytes:
Unsigned 16-bit hexadecimal number used to transfer logic
states or unsigned integer numbers
Unsigned 32-bit hexadecimal number used to transfer logic
states or unsigned integer numbers
The information stored in the Items can have one of several formats:
1. Floating Point Numerical Items are real numbers, with a +/- sign.
They refer to input or output values, limit values, etc. They are
displayed and entered as numbers, with a sign and a decimal point.
These Items are shown in the Item List with “Number” in the Type
column.
2. Integer Items are positive whole numbers used as scale factors.
These Items are shown in the Item List with “1 Byte Int” in the Type
column.
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3. Totalized Numerical Items are actual positive numbers. They refer
to totalized values of pulse counters. They are displayed and entered
as whole numbers, without a sign or decimal point. These Items are
shown in the Item List with “4 Bytes” in the Type column.
4. Status Items are either 1-byte or 2-byte Items giving information on
the actual status or configuration of the inputs, outputs and modules,
where each bit has a specific meaning as described in the Item List.
These Items are shown in the Item List with the number of bytes in
the Type column. Data is displayed and entered as bytes. In the list
the bytes will be represented using X1-X8 or X1-X16.
1 Byte = X8 X7 X6 X5 X4 X3 X2 X1
2 Bytes = X16 X15 X14 X13 X12 X11 X10 X9 X8 X7 X6 X5 X4 X3 X2 X1
Each Item in the Item List has a unique name or “tag,” which summarizes
the description and the meaning of the data which is stored in the XT-9100
memory.
Item Tag
The Items are shown in the Item List with their respective names in the
Tag column.
The Items shown in the Item List can be divided into three basic
categories:
Read/Write Data
(R/W)
1. Input values and status of the XT-9100 can be read but not changed
by a Supervisory System. These Items are shown in the Item List
with an “R” in the R/W column.
2. Variables in the XT-9100 can be read and modified by the GX-9100
Graphic Configuration Software or Supervisory System. These Items
are shown in the Item List with an “R/W” in the R/W (read/write)
column. (E) indicates that the Item is stored in EEPROM.
3. All other Items in the XT-9100 refer to configuration parameters of
the controller and contain information such as analog ranges, output
type, etc., and they can only be changed with the GX-9100 Graphic
Configuration Software. These Items are shown in the Item List with
a “CNF” (configuration) in the R/W column.
All Items can be accessed by the SX Tool via a DX-9100 Controller.
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A DX-9100 floating point number consists of two bytes with following
format:
Floating Point
Numbers
15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0
E3 E2 E1 E0 S M10 M9 M8 M7 M6 M5 M4 M3 M2 M1 M0
where: EEEE
S
=
=
4 bits exponent
sign (1=negative)
11 bits mantissa
MMMMMMMMMMM =
16
Note: 2 = 32,768; subtracting 4 bits for the exponent, 1 bit for the sign,
and 11 bits for the mantissa leaves a maximum value of 2047 for
most numeric entries with single digit resolution.
•
A number is normalized when the most significant bit is true
(M10 = 1).
th
•
The value of the n. mantissa bit (n from 0-10) is:
2 exp -(<EXPONENT>-n)
•
•
A number is zero when all bits of the mantissa are 0.
The value of a number is:
<NUMBER> = <SIGN> * .<MANTISSA> * 2 exp <EXPONENT>
Examples:
1 = 1400H
-1 = 1C00H
100 = 7640H
or
or
or
B001H
B801H
B064H
Symbols used in the Item List:
Item List
DI.
Decimal Item Address
Hexadecimal Item Address
Item Type
HI.
Type
R/W
Read Write conditions:
R
Read only Item
R/W
R/W (E)
CNF
Read/Write Item
Read/Write Item (EEPROM)
Configuration Item (EEPROM)
Tag
Label for Item or bit written within an Item
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Table 3: Item List
RI.
HI.
Type
R/W
Tag
Description
00
00
1 Byte
R
MODL
Device Model : 08H
01
01
1 Bytes
R/W
OPMO
Operation Mode (status)
X8 X7 X6 X5 X4 X3 X2 X1
X1 = 1
X2 =
X3 =
X4 =
X5 =
X6 =
Watchdog text
DO Error
DI Error
AI Error
AO Error
Not Used
X7 =
FAIL
XT Fail Mode (= XTS, bit X2)
Power Fail or Comm. Failure
X8 = 1
PWR
02
02
1 Byte
R
I2CE
Bus Error
X8 X7 X6 X5 X4 X3 X2 X1
X1 = 1
X2 = 1
X3 = 1
X4 = 1
X5 = 1
X6 = 1
XP1: DO Error
XP2: DO Error
XP1: DI Error
XP2: DI Error
Analog or Counter Error (1-4)
Analog or Counter Error (5-8)
EEPROM Error
X7 = 1
X8 = 1
FAIL
PWR
XP Hardware Fault
03
04
05
06
03
04
05
06
1 Byte
1 Byte
1 Byte
1 Byte
Spare
Spare
Spare
Spare
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RI.
HI.
Type
R/W
Tag
Description
07
07
1 Byte
R/W
DOS1
Digital Output Status XP1
X8 X7 X6 X5 X4 X3 X2 X1
X1 = 1
X2 = 1
X3 = 1
X4 = 1
X5 = 1
X6 = 1
X7 = 1
X8 = 1
XP1 : Output 1 is On
XP1 : Output 2 is On
XP1 : Output 3 is On
XP1 : Output 4 is On
XP1 : Output 5 is On
XP1 : Output 6 is On
XP1 : Output 7 is On
XP1 : Output 8 is On
08
08
1 Byte
R/W
DOS2
Digital Output Status XP2
X8 X7 X6 X5 X4 X3 X2 X1
X1 = 1
X2 = 1
X3 = 1
X4 = 1
X5 = 1
X6 = 1
X7 = 1
X8 = 1
XP2 : Output 1 is On
XP2 : Output 2 is On
XP2 : Output 3 is On
XP2 : Output 4 is On
XP2 : Output 5 is On
XP2 : Output 6 is On
XP2 : Output 7 is On
XP2 : Output 8 is On
09
09
1 Byte
R
DIS1
Digital Input Status XP1
X8 X7 X6 X5 X4 X3 X2 X1
X1 = 1
X2 = 1
X3 = 1
X4 = 1
X5 = 1
X6 = 1
X7 = 1
X8 = 1
XP1 : Digital Input 1 is On
XP1 : Digital Input 2 is On
XP1 : Digital Input 3 is On
XP1 : Digital Input 4 is On
XP1 : Digital Input 5 is On
XP1 : Digital Input 6 is On
XP1 : Digital Input 7 is On
XP1 : Digital Input 8 is On
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RI.
HI.
Type
R/W
Tag
Description
10
0A
1 Byte
R
DIS2
Digital Input Status XP2
X8 X7 X6 X5 X4 X3 X2 X1
X1 = 1
X2 = 1
X3 = 1
X4 = 1
X5 = 1
X6 = 1
X7 = 1
X8 = 1
XP2 : Digital Input 1 is On
XP2 : Digital Input 2 is On
XP2 : Digital Input 3 is On
XP2 : Digital Input 4 is On
XP2 : Digital Input 5 is On
XP2 : Digital Input 6 is On
XP2 : Digital Input 7 is On
XP2 : Digital Input 8 is On
11
0B
2 Byte
R
AIS
Analog Input Status
X16 X15 X14 X13 X12 X11 X10 X9 X8
X7 X6 X5 X4 X3 X2 X1
X1 = 1
X2 = 1
X3 = 1
X4 = 1
X5 = 1
X6 = 1
X7 = 1
X8 = 1
X9 = 1
X10= 1
X11= 1
X12= 1
X13= 1
X14= 1
X15= 1
X16= 1
AIH1
AIL1
AIH2
AIL2
AIH3
AIL3
AIH4
AIL4
AIH5
AIL5
AIH6
AIL6
AIH7
AIL7
AIH8
AIL8
High Alarm Condition
Low Alarm Condition
High Alarm Condition
Low Alarm Condition
High Alarm Condition
Low Alarm Condition
High Alarm Condition
Low Alarm Condition
High Alarm Condition
Low Alarm Condition
High Alarm Condition
Low Alarm Condition
High Alarm Condition
Low Alarm Condition
High Alarm Condition
Low Alarm Condition
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RI.
12
13
14
15
16
17
18
19
HI.
0C
0D
0E
0F
10
11
12
13
Type
R/W
R
Tag
AI1
AI2
AI3
AI4
AI5
AI6
AI7
AI8
Description
Number
Number
Number
Number
Number
Number
Number
Number
Analog Input Value 1
Analog Input Value 2
Analog Input Value 3
Analog Input Value 4
Analog Input Value 5
Analog Input Value 6
Analog Input Value 7
Analog Input Value 8
R
R
R
R
R
R
R
20
21
22
23
24
25
26
27
14
15
16
17
18
19
1A
1B
Number
Number
Number
Number
Number
Number
Number
Number
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
AO1
AO2
AO3
AO4
AO5
AO6
AO7
AO8
Analog Output Value 1
Analog Output Value 2
Analog Output Value 3
Analog Output Value 4
Analog Output Value 5
Analog Output Value 6
Analog Output Value 7
Analog Output Value 8
28
29
30
31
1C
1D
1E
1F
Spare
Spare
Spare
Spare
32
33
34
35
36
37
38
39
20
21
22
23
24
25
26
27
4 Bytes
4 Bytes
4 Bytes
4 Bytes
4 Bytes
4 Bytes
4 Bytes
4 Bytes
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
CNT1
CNT2
CNT3
CNT4
CNT5
CNT6
CNT7
CNT8
DI1 Pulse Count*
DI2 Pulse Count*
DI3 Pulse Count*
DI4 Pulse Count*
DI5 Pulse Count*
DI6 Pulse Count*
DI7 Pulse Count*
DI8 Pulse Count*
40
41
42
43
44
45
46
47
28
29
2A
2B
2C
2D
2E
2F
Spare
Spare
Spare
Spare
Spare
Spare
Spare
Spare
*
Pulse Count Items are stored in EEPROM upon power failure and restored to RAM upon
power restoration.
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RI.
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
HI.
30
31
32
33
34
35
36
37
38
39
3A
3B
3C
3D
3E
3F
Type
R/W
CNF
CNF
CNF
CNF
CNF
CNF
CNF
CNF
CNF
CNF
CNF
CNF
CNF
CNF
CNF
CNF
Tag
PC1
Description
1 Byte Int
1 Byte Int
1 Byte Int
1 Byte Int
1 Byte Int
1 Byte Int
1 Byte Int
1 Byte Int
1 Byte
Prescaler DI1 Counter
Prescaler DI2 Counter
Prescaler DI3 Counter
Prescaler DI4 Counter
Prescaler DI5 Counter
Prescaler DI6 Counter
Prescaler DI7 Counter
Prescaler DI8 Counter
Internal use only
PC2
PC3
PC4
PC5
PC6
PC7
PC8
DIL1
DIL5
DIL9
DILD
DOL1
DOL5
DOL9
DOLD
1 Byte
Internal use only
1 Byte
Internal use only
1 Byte
Internal use only
1 Byte
Internal use only
1 Byte
Internal use only
1 Byte
Internal use only
1 Byte
Internal use only
64
40
1 Byte
CNF
DIT1
Digital Input Type XP1
X8 X7 X6 X5 X4 X3 X2 X1
X1 = 0
XP1 : DI1 = Maintained Contact
XP1 : DI1 = Pulse Contact
X1 = 1
X2 = 0
XP1 : DI2 = Maintained Contact
XP1 : DI2 = Pulse Contact
X2 = 1
X3 = 0
XP1 : DI3 = Maintained Contact
XP1 : DI3 = Pulse Contact
X3 = 1
X4 = 0
XP1 : DI4 = Maintained Contact
XP1 : DI4 = Pulse Contact
X4 = 1
X5 = 0
XP1 : DI5 = Maintained Contact
XP1 : DI5 = Pulse Contact
X5 = 1
X6 = 0
XP1 : DI6 = Maintained Contact
XP1 : DI6 = Pulse Contact
X6 = 1
X7 = 0
XP1 : DI7 = Maintained Contact
XP1 : DI7 = Pulse Contact
X7 = 1
X8 = 0
XP1 : DI8 = Maintained Contact
XP1 : DI8 = Pulse Contact
X8 = 1
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RI.
HI.
Type
R/W
Tag
Description
65
41
1 Byte
CNF
DIT2
Digital Input Type XP2
X8 X7 X6 X5 X4 X3 X2 X1
X1 = 0
XP2 : DI1 = Maintained Contact
XP2 : DI1 = Pulse Contact
X1 = 1
X2 = 0
XP2 : DI2 = Maintained Contact
XP2 : DI2 = Pulse Contact
X2 = 1
X3 = 0
XP2 : DI3 = Maintained Contact
XP2 : DI3 = Pulse Contact
X3 = 1
X4 = 0
XP2 : DI4 = Maintained Contact
XP2 : DI4 = Pulse Contact
X4 = 1
X5 = 0
XP2 : DI5 = Maintained Contact
XP2 : DI5 = Pulse Contact
X5 = 1
X6 = 0
XP2 : DI6 = Maintained Contact
XP2 : DI6 = Pulse Contact
X6 = 1
X7 = 0
XP2 : DI7 = Maintained Contact
XP2 : DI7 = Pulse Contact
X7 = 1
X8 = 0
XP2 : DI8 = Maintained Contact
XP2 : DI8 = Pulse Contact
X8 = 1
66
42
1 Byte
CNF
DOT1
Digital Output Type XP1
X8 X7 X6 X5 X4 X3 X2 X1
X1 = 0
XP1 : DO1 = ON/OFF Type
XP1 : DO1 = Pulse Type
XP1 : DO2 = ON/OFF Type
XP1 : DO2 = Pulse Type
XP1 : DO3 = ON/OFF Type
XP1 : DO3 = Pulse Type
XP1 : DO4 = ON/OFF Type
XP1 : DO4 = Pulse Type
XP1 : DO5 = ON/OFF Type
XP1 : DO5 = Pulse Type
XP1 : DO6 = ON/OFF Type
XP1 : DO6 = Pulse Type
XP1 : DO7 = ON/OFF Type
XP1 : DO7 = Pulse Type
XP1 : DO8 = ON/OFF Type
XP1 : DO8 = Pulse Type
X1 = 1
X2 = 0
X2 = 1
X3 = 0
X3 = 1
X4 = 0
X4 = 1
X5 = 0
X5 = 1
X6 = 0
X6 = 1
X7 = 0
X7 = 1
X8 = 0
X8 = 1
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RI.
HI.
Type
R/W
Tag
Description
67
43
1 Byte
CNF
DOT2
Digital Output Type XP2
X8 X7 X6 X5 X4 X3 X2 X1
X1 = 0
XP2 : DO1 = ON/OFF Type
XP2 : DO1 = Pulse Type
XP2 : DO2 = ON/OFF Type
XP2 : DO2 = Pulse Type
XP2 : DO3 = ON/OFF Type
XP2 : DO3 = Pulse Type
XP2 : DO4 = ON/OFF Type
XP2 : DO4 = Pulse Type
XP2 : DO5 = ON/OFF Type
XP2 : DO5 = Pulse Type
XP2 : DO6 = ON/OFF Type
XP2 : DO6 = Pulse Type
XP2 : DO7 = ON/OFF Type
XP2 : DO7 = Pulse Type
XP2 : DO8 = ON/OFF Type
XP2 : DO8 = Pulse Type
X1 = 1
X2 = 0
X2 = 1
X3 = 0
X3 = 1
X4 = 0
X4 = 1
X5 = 0
X5 = 1
X6 = 0
X6 = 1
X7 = 0
X7 = 1
X8 = 0
X8 = 1
68
69
44
45
1 Byte
CNF
CNF
DOPT
XTS
Digital Output Pulse Time (*5 ms.)
(default = 200)
1 Byte
XT-9100 Type Settings
0 0 0 0 0 X3 X2 X1
X1 = 0
50 Hz Power Line
60 Hz Power Line
X1 = 1
X2 = 0
Output Reset on communication
failure
X2 = 1
X3
Output Hold on communication
failure
Internal use only
70
71
72
73
74
46
47
48
49
4A
1 Byte
1 Byte
1 Byte
1 Byte
1 Byte
CNF
CNF
CNF
CNF
CNF
Spare
Spare
Spare
Spare
Spare
75
76
4B
4C
1 Byte
1 Byte
CNF
CNF
AI2C
Internal use only
Internal use only
AMOD
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RI.
HI.
Type
R/W
Tag
Description
77
4D
1 Byte
CNF
IOMAP
Extension Module I/O Map
X8 X7 X6 X5 X4 X3 X2 X1
X1 = 0
XP1
XP1
XP1
XP1
XP1
XP1
XP1
XP1
XP2
XP2
XP2
XP2
XP2
XP2
XP2
XP2
: I/O1 and I/O2 Not Used
X1 = 1
: I/O1 and I/O2 Used
: I/O3 and I/O4 Not Used
: I/O3 and I/O4 Used
: I/O5 and I/O6 Not Used
: I/O5 and I/O6 Used
: I/O7 and I/O8 Not Used
: I/O7 and I/O8 Used
: I/O1 and I/O2 Not Used
: I/O1 and I/O2 Used
: I/O3 and I/O4 Not Used
: I/O3 and I/O4 Used
: I/O5 and I/O6 Not Used
: I/O5 and I/O6 Used
: I/O7 and I/O8 Not Used
: I/O7 and I/O8 Used
X2 = 0
X2 = 1
X3 = 0
X3 = 1
X4 = 0
X4 = 1
X5 = 0
X5 = 1
X6 = 0
X6 = 1
X7 = 0
X7 = 1
X8 = 0
X8 = 1
78
4E
1 Byte
CNF
IOTYP
Extension Module I/O Type
0 0 0 0 X4 X3 X2 X1
X1 = 0
XP1
XP1
XP1
XP1
XP1
XP1
XP1
XP1
: I/O1 and I/O2 Digital
: I/O1 and I/O2 Analog
: I/O3 and I/O4 Digital
: I/O3 and I/O4 Analog
: I/O5 and I/O6 Digital
: I/O5 and I/O6 Analog
: I/O7 and I/O8 Digital
: I/O7 and I/O8 Analog
X1 = 1
X2 = 0
X2 = 1
X3 = 0
X3 = 1
X4 = 0
X4 = 1
Configuration Guides—XT-9100 Configuration Guide 33
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RI.
HI.
Type
R/W
Tag
Description
79
4F
1 Byte
CNF
IOMOD
Extension Module I/O Mode
X8 X7 X6 X5 X4 X3 X2 X1
X1 = 0
XP1
XP1
XP1
XP1
XP1
XP1
XP1
XP1
XP2
XP2
XP2
XP2
XP2
XP2
XP2
XP2
: I/O1 and I/O2 Input
: I/O1 and I/O2 Output
: I/03 and I/O4 Input
: I/O3 and I/O4 Output
: I/O5 and I/O6 Input
: I/O5 and I/O6 Output
: I/O7 and I/O8 Input
: I/O7 and I/O8 Output
: I/O1 and I/O2 Input
: I/O1 and I/O2 Output
: I/O3 and I/O4 Input
: I/O3 and I/04 Output
: I/O5 and I/O6 Input
: I/O5 and I/O6 Output
: I/O7 and I/O8 Input
: I/O7 and I/O8 Output
X1 = 1
X2 = 0
X2 = 1
X3 = 0
X3 = 1
X4 = 0
X4 = 1
X5 = 0
X5 = 1
X6 = 0
X6 = 1
X7 = 0
X7 = 1
X8 = 0
X8 = 1
80
81
82
83
84
85
50
51
52
53
54
55
1 Byte
1 Byte
1 Byte
1 Byte
1 Byte
1 Byte
CNF
CNF
CNF
CNF
CNF
CNF
Spare
Spare
Spare
Spare
Spare
Spare
86
87
56
57
2 Byte
CNF
MTBC
AOT
Maximum Time Between
Communications (default = 60 sec.)
2 Byte
CNF
Analog Output Type
X16 X15 X14 X13 X12 X11 X10 X9
X8 X7 X6 X5 X4 X3 X2 X1
X2 X1
Signal Analog Output 1
= 00
Output Disabled
= 01
Output 0 to 10V
= 10
Output 0 to 20 mA
= 11
Output 4 to 20 mA
X4 X3
X6 X5
X8 X7
X10 X9
X12 X11
X14 X13
X16 X15
Signal Analog Output 2 (as X2 X1)
Signal Analog Output 3 (as X2 X1)
Signal Analog Output 4 (as X2 X1)
Signal Analog Output 5 (as X2 X1)
Signal Analog Output 6 (as X2 X1)
Signal Analog Output 7 (as X2 X1)
Signal Analog Output 8 (as X2 X1)
34 Configuration Guides—XT-9100 Configuration Guide
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RI.
HI.
Type
R/W
Tag
Description
88
58
2 Bytes
CNF
AIT1
Input Type of Analog Input 1
Unit of Measure
0
0
0
0
0
X11 X10 X9
X8 X7 X6 X5 X4 X3 X2 X1
X4 X3 X2 X1
= 0000
= 0001
= 0010
= 0011
X5 = 1
X6 = 1
X7 = 0
X7 = 1
X8 = 1
X11 X10 X9
= 000
No Units
Degrees Celsius or Kelvin
Degrees Fahrenheit
Percent
Enable Square Root of Input
Alarm on Unfiltered Value
0-10 Volts
0-2 Volts, 0-20 mA or RTD
20 % Suppression
Linearization and Sensor Type
Linear (active sensor)
Nickel 1000 (JCI)
= 001
= 010
Nickel 1000 Ext. Rng
A99 Sensor
= 011
= 100
PT1000 Sensor
89
90
91
92
93
94
59
Number
Number
Number
Number
Number
Number
CNF
HR1
High Range Analog Input 1
Low Range Analog Input 1
5A
5B
5C
5D
5E
CNF
LR1
R/W (E)
R/W (E)
R/W (E)
CNF
HIA1
LOA1
ADF1
FTC1
High Alarm Limit Analog Input 1
Low Alarm Limit Analog Input
Differential on Alarm Limit [units]
Filter Constant Analog Input 1
95
96
5F
60
2 Bytes
2 Bytes
Spare
CNF
AIT2
Input Type of Analog Input 2 (bits
as AIT1)
97
61
62
63
64
65
66
Number
Number
Number
Number
Number
Number
CNF
HR2
High Range Analog Input 2
Low Range Analog Input 2
98
CNF
LR2
99
R/W (E)
R/W (E)
R/W (E)
CNF
HIA2
LOA2
ADF2
FTC2
High Alarm Limit Analog Input 2
Low Alarm Limit Analog Input 2
Differential on Alarm Limit [units]
Filter Constant Analog Input 2
100
101
102
103
67
2 Bytes
Spare
Configuration Guides—XT-9100 Configuration Guide 35
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RI.
HI.
Type
R/W
Tag
Description
104
68
2 Bytes
CNF
AIT3
Input Type of Analog Input 3
(bits as AIT1)
105
106
107
108
109
110
69
Number
Number
Number
Number
Number
Number
CNF
HR3
High Range Analog Input 3
Low Range Analog Input 3
6A
6B
6C
6D
6E
CNF
LR3
R/W (E)
R/W (E)
R/W (E)
CNF
HIA3
LOA3
ADF3
FTC3
High Alarm Limit Analog Input 3
Low Alarm Limit Analog Input 3
Differential on Alarm Limit [units]
Filter Constant Analog Input 3
111
112
6F
70
2 Bytes
2 Bytes
Spare
CNF
AIT4
Input Type of Analog Input 4
(bits as AIT1)
113
114
115
116
117
118
71
72
73
74
75
76
Number
Number
Number
Number
Number
Number
CNF
HR4
High Range Analog Input 4
Low Range Analog Input 4
CNF
LR4
R/W (E)
R/W (E)
R/W (E)
CNF
HIA4
LOA4
ADF4
FTC4
High Alarm Limit Analog Input 4
Low Alarm Limit Analog Input 4
Differential on Alarm Limit [units]
Filter Constant Analog Input 4
119
120
78
74
2 Bytes
2 Bytes
Spare
CNF
AIT5
Input Type of Analog Input 5
(bits as AIT1)
121
122
123
124
125
126
79
Number
Number
Number
Number
Number
Number
CNF
HR5
High Range Analog Input 5
Low Range Analog Input 5
7A
7B
7C
7D
7E
CNF
LR5
R/W (E)
R/W (E)
R/W (E)
CNF
HIA5
LOA5
ADF5
FTC5
High Alarm Limit Analog Input 5
Low Alarm Limit Analog Input 5
Differential on Alarm Limit [units]
Filter Constant Analog Input 5
127
7F
2 Bytes
Spare
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RI.
HI.
Type
R/W
Tag
Description
128
80
2 Bytes
CNF
AIT6
Input Type of Analog Input 6
(bits as AIT1)
129
130
131
132
133
134
81
82
83
84
85
86
Number
Number
Number
Number
Number
Number
CNF
HR6
High Range Analog Input 6
Low Range Analog Input 6
CNF
LR6
R/W (E)
R/W (E)
R/W (E)
CNF
HIA6
LOA6
ADF6
FTC6
High Alarm Limit Analog Input 6
Low Alarm Limit Analog Input 6
Differential on Alarm Limit [units]
Filter Constant Analog Input 6
135
136
87
88
2 Bytes
2 Bytes
Spare
CNF
AIT7
Input Type of Analog Input 7
(bits as AIT1)
137
138
139
140
141
142
89
Number
Number
Number
Number
Number
Number
CNF
HR7
High Range Analog Input 7
Low Range Analog Input 7
8A
8B
8C
8D
8E
CNF
LR7
R/W (E)
R/W (E)
R/W (E)
CNF
HIA7
LOA7
ADF7
FTC7
High Alarm Limit Analog Input 7
Low Alarm Limit Analog Input 7
Differential on Alarm Limit [units]
Filter Constant Analog Input 7
143
144
8F
90
2 Bytes
2 Bytes
Spare
CNF
AIT8
Input Type of Analog Input 8
(bits as AIT1)
145
146
147
148
149
150
91
92
93
94
95
96
Number
Number
Number
Number
Number
Number
CNF
HR8
High Range Analog Input 8
Low Range Analog Input 8
CNF
LR8
R/W (E)
R/W (E)
R/W (E)
CNF
HIA8
LOA8
ADF8
FTC8
High Alarm Limit Analog Input 8
Low Alarm Limit Analog Input 8
Differential on Alarm Limit [units]
Filter Constant Analog Input 8
151
97
2 Bytes
Spare
Configuration Guides—XT-9100 Configuration Guide 37
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Notes
38 Configuration Guides—XT-9100 Configuration Guide
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Notes
Configuration Guides—XT-9100 Configuration Guide 39
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Notes
Controls Group
507 E. Michigan Street
P.O. Box 423
FAN 636.4
System 9100 Technical Manual
Printed in U.S.A.
Milwaukee, WI 53201
40 Configuration Guides—XT-9100 Configuration Guide
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